/* * Copyright (c) 2016-2017, The OpenThread Authors. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the copyright holder nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /** * @file * This file includes definitions for maintaining Thread network topologies. */ #include "topology.hpp" #include "common/array.hpp" #include "common/code_utils.hpp" #include "common/debug.hpp" #include "common/instance.hpp" #include "common/locator_getters.hpp" namespace ot { bool Neighbor::AddressMatcher::Matches(const Neighbor &aNeighbor) const { bool matches = false; VerifyOrExit(aNeighbor.MatchesFilter(mStateFilter)); if (mShortAddress != Mac::kShortAddrInvalid) { VerifyOrExit(mShortAddress == aNeighbor.GetRloc16()); } if (mExtAddress != nullptr) { VerifyOrExit(*mExtAddress == aNeighbor.GetExtAddress()); } matches = true; exit: return matches; } void Neighbor::Info::SetFrom(const Neighbor &aNeighbor) { Clear(); mExtAddress = aNeighbor.GetExtAddress(); mAge = Time::MsecToSec(TimerMilli::GetNow() - aNeighbor.GetLastHeard()); mRloc16 = aNeighbor.GetRloc16(); mLinkFrameCounter = aNeighbor.GetLinkFrameCounters().GetMaximum(); mMleFrameCounter = aNeighbor.GetMleFrameCounter(); mLinkQualityIn = aNeighbor.GetLinkInfo().GetLinkQuality(); mAverageRssi = aNeighbor.GetLinkInfo().GetAverageRss(); mLastRssi = aNeighbor.GetLinkInfo().GetLastRss(); mFrameErrorRate = aNeighbor.GetLinkInfo().GetFrameErrorRate(); mMessageErrorRate = aNeighbor.GetLinkInfo().GetMessageErrorRate(); mRxOnWhenIdle = aNeighbor.IsRxOnWhenIdle(); mFullThreadDevice = aNeighbor.IsFullThreadDevice(); mFullNetworkData = (aNeighbor.GetNetworkDataType() == NetworkData::kFullSet); } void Neighbor::Init(Instance &aInstance) { InstanceLocatorInit::Init(aInstance); mLinkInfo.Init(aInstance); SetState(kStateInvalid); } bool Neighbor::IsStateValidOrAttaching(void) const { bool rval = false; switch (GetState()) { case kStateInvalid: case kStateParentRequest: case kStateParentResponse: break; case kStateRestored: case kStateChildIdRequest: case kStateLinkRequest: case kStateChildUpdateRequest: case kStateValid: rval = true; break; } return rval; } bool Neighbor::MatchesFilter(StateFilter aFilter) const { bool matches = false; switch (aFilter) { case kInStateValid: matches = IsStateValid(); break; case kInStateValidOrRestoring: matches = IsStateValidOrRestoring(); break; case kInStateChildIdRequest: matches = IsStateChildIdRequest(); break; case kInStateValidOrAttaching: matches = IsStateValidOrAttaching(); break; case kInStateInvalid: matches = IsStateInvalid(); break; case kInStateAnyExceptInvalid: matches = !IsStateInvalid(); break; case kInStateAnyExceptValidOrRestoring: matches = !IsStateValidOrRestoring(); break; case kInStateAny: matches = true; break; } return matches; } #if OPENTHREAD_CONFIG_MULTI_RADIO void Neighbor::SetLastRxFragmentTag(uint16_t aTag) { mLastRxFragmentTag = (aTag == 0) ? 0xffff : aTag; mLastRxFragmentTagTime = TimerMilli::GetNow(); } bool Neighbor::IsLastRxFragmentTagSet(void) const { return (mLastRxFragmentTag != 0) && (TimerMilli::GetNow() <= mLastRxFragmentTagTime + kLastRxFragmentTagTimeout); } #endif void Neighbor::GenerateChallenge(void) { IgnoreError( Random::Crypto::FillBuffer(mValidPending.mPending.mChallenge, sizeof(mValidPending.mPending.mChallenge))); } #if OPENTHREAD_CONFIG_MLE_LINK_METRICS_INITIATOR_ENABLE || OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE void Neighbor::AggregateLinkMetrics(uint8_t aSeriesId, uint8_t aFrameType, uint8_t aLqi, int8_t aRss) { for (LinkMetrics::SeriesInfo &entry : mLinkMetricsSeriesInfoList) { if (aSeriesId == 0 || aSeriesId == entry.GetSeriesId()) { entry.AggregateLinkMetrics(aFrameType, aLqi, aRss); } } } LinkMetrics::SeriesInfo *Neighbor::GetForwardTrackingSeriesInfo(const uint8_t &aSeriesId) { return mLinkMetricsSeriesInfoList.FindMatching(aSeriesId); } void Neighbor::AddForwardTrackingSeriesInfo(LinkMetrics::SeriesInfo &aSeriesInfo) { mLinkMetricsSeriesInfoList.Push(aSeriesInfo); } LinkMetrics::SeriesInfo *Neighbor::RemoveForwardTrackingSeriesInfo(const uint8_t &aSeriesId) { return mLinkMetricsSeriesInfoList.RemoveMatching(aSeriesId); } void Neighbor::RemoveAllForwardTrackingSeriesInfo(void) { while (!mLinkMetricsSeriesInfoList.IsEmpty()) { LinkMetrics::SeriesInfo *seriesInfo = mLinkMetricsSeriesInfoList.Pop(); Get().mSeriesInfoPool.Free(*seriesInfo); } } #endif // OPENTHREAD_CONFIG_MLE_LINK_METRICS_INITIATOR_ENABLE || OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE const char *Neighbor::StateToString(State aState) { static const char *const kStateStrings[] = { "Invalid", // (0) kStateInvalid "Restored", // (1) kStateRestored "ParentReq", // (2) kStateParentRequest "ParentRes", // (3) kStateParentResponse "ChildIdReq", // (4) kStateChildIdRequest "LinkReq", // (5) kStateLinkRequest "ChildUpdateReq", // (6) kStateChildUpdateRequest "Valid", // (7) kStateValid }; static_assert(0 == kStateInvalid, "kStateInvalid value is incorrect"); static_assert(1 == kStateRestored, "kStateRestored value is incorrect"); static_assert(2 == kStateParentRequest, "kStateParentRequest value is incorrect"); static_assert(3 == kStateParentResponse, "kStateParentResponse value is incorrect"); static_assert(4 == kStateChildIdRequest, "kStateChildIdRequest value is incorrect"); static_assert(5 == kStateLinkRequest, "kStateLinkRequest value is incorrect"); static_assert(6 == kStateChildUpdateRequest, "kStateChildUpdateRequest value is incorrect"); static_assert(7 == kStateValid, "kStateValid value is incorrect"); return kStateStrings[aState]; } #if OPENTHREAD_FTD void Child::Info::SetFrom(const Child &aChild) { Clear(); mExtAddress = aChild.GetExtAddress(); mTimeout = aChild.GetTimeout(); mRloc16 = aChild.GetRloc16(); mChildId = Mle::Mle::ChildIdFromRloc16(aChild.GetRloc16()); mNetworkDataVersion = aChild.GetNetworkDataVersion(); mAge = Time::MsecToSec(TimerMilli::GetNow() - aChild.GetLastHeard()); mLinkQualityIn = aChild.GetLinkInfo().GetLinkQuality(); mAverageRssi = aChild.GetLinkInfo().GetAverageRss(); mLastRssi = aChild.GetLinkInfo().GetLastRss(); mFrameErrorRate = aChild.GetLinkInfo().GetFrameErrorRate(); mMessageErrorRate = aChild.GetLinkInfo().GetMessageErrorRate(); mQueuedMessageCnt = aChild.GetIndirectMessageCount(); mVersion = aChild.GetVersion(); mRxOnWhenIdle = aChild.IsRxOnWhenIdle(); mFullThreadDevice = aChild.IsFullThreadDevice(); mFullNetworkData = (aChild.GetNetworkDataType() == NetworkData::kFullSet); mIsStateRestoring = aChild.IsStateRestoring(); #if OPENTHREAD_FTD && OPENTHREAD_CONFIG_MAC_CSL_TRANSMITTER_ENABLE mIsCslSynced = aChild.IsCslSynchronized(); #else mIsCslSynced = false; #endif } const Ip6::Address *Child::AddressIterator::GetAddress(void) const { // `mIndex` value of zero indicates mesh-local IPv6 address. // Non-zero value specifies the index into address array starting // from one for first element (i.e, `mIndex - 1` gives the array // index). return (mIndex == 0) ? &mMeshLocalAddress : ((mIndex < kMaxIndex) ? &mChild.mIp6Address[mIndex - 1] : nullptr); } void Child::AddressIterator::Update(void) { const Ip6::Address *address; if ((mIndex == 0) && (mChild.GetMeshLocalIp6Address(mMeshLocalAddress) != kErrorNone)) { mIndex++; } while (true) { address = GetAddress(); VerifyOrExit((address != nullptr) && !address->IsUnspecified(), mIndex = kMaxIndex); VerifyOrExit(!address->MatchesFilter(mFilter)); mIndex++; } exit: return; } void Child::Clear(void) { Instance &instance = GetInstance(); memset(reinterpret_cast(this), 0, sizeof(Child)); Init(instance); } void Child::ClearIp6Addresses(void) { mMeshLocalIid.Clear(); memset(mIp6Address, 0, sizeof(mIp6Address)); #if OPENTHREAD_FTD && OPENTHREAD_CONFIG_TMF_PROXY_MLR_ENABLE mMlrToRegisterMask.Clear(); mMlrRegisteredMask.Clear(); #endif } void Child::SetDeviceMode(Mle::DeviceMode aMode) { VerifyOrExit(aMode != GetDeviceMode()); Neighbor::SetDeviceMode(aMode); VerifyOrExit(IsStateValid()); Get().Signal(NeighborTable::kChildModeChanged, *this); exit: return; } Error Child::GetMeshLocalIp6Address(Ip6::Address &aAddress) const { Error error = kErrorNone; VerifyOrExit(!mMeshLocalIid.IsUnspecified(), error = kErrorNotFound); aAddress.SetPrefix(Get().GetMeshLocalPrefix()); aAddress.SetIid(mMeshLocalIid); exit: return error; } Error Child::AddIp6Address(const Ip6::Address &aAddress) { Error error = kErrorNone; VerifyOrExit(!aAddress.IsUnspecified(), error = kErrorInvalidArgs); if (Get().IsMeshLocalAddress(aAddress)) { VerifyOrExit(mMeshLocalIid.IsUnspecified(), error = kErrorAlready); mMeshLocalIid = aAddress.GetIid(); ExitNow(); } for (Ip6::Address &ip6Address : mIp6Address) { if (ip6Address.IsUnspecified()) { ip6Address = aAddress; ExitNow(); } VerifyOrExit(ip6Address != aAddress, error = kErrorAlready); } error = kErrorNoBufs; exit: return error; } Error Child::RemoveIp6Address(const Ip6::Address &aAddress) { Error error = kErrorNotFound; uint16_t index; VerifyOrExit(!aAddress.IsUnspecified(), error = kErrorInvalidArgs); if (Get().IsMeshLocalAddress(aAddress)) { if (aAddress.GetIid() == mMeshLocalIid) { mMeshLocalIid.Clear(); error = kErrorNone; } ExitNow(); } for (index = 0; index < kNumIp6Addresses; index++) { VerifyOrExit(!mIp6Address[index].IsUnspecified()); if (mIp6Address[index] == aAddress) { error = kErrorNone; break; } } SuccessOrExit(error); for (; index < kNumIp6Addresses - 1; index++) { mIp6Address[index] = mIp6Address[index + 1]; } mIp6Address[kNumIp6Addresses - 1].Clear(); exit: return error; } bool Child::HasIp6Address(const Ip6::Address &aAddress) const { bool retval = false; VerifyOrExit(!aAddress.IsUnspecified()); if (Get().IsMeshLocalAddress(aAddress)) { retval = (aAddress.GetIid() == mMeshLocalIid); ExitNow(); } for (const Ip6::Address &ip6Address : mIp6Address) { VerifyOrExit(!ip6Address.IsUnspecified()); if (ip6Address == aAddress) { ExitNow(retval = true); } } exit: return retval; } #if OPENTHREAD_FTD && OPENTHREAD_CONFIG_TMF_PROXY_DUA_ENABLE const Ip6::Address *Child::GetDomainUnicastAddress(void) const { const Ip6::Address *addr = nullptr; for (const Ip6::Address &ip6Address : mIp6Address) { VerifyOrExit(!ip6Address.IsUnspecified()); if (Get().IsDomainUnicast(ip6Address)) { ExitNow(addr = &ip6Address); } } exit: return addr; } #endif void Child::GenerateChallenge(void) { IgnoreError(Random::Crypto::FillBuffer(mAttachChallenge, sizeof(mAttachChallenge))); } #if OPENTHREAD_CONFIG_TMF_PROXY_MLR_ENABLE bool Child::HasMlrRegisteredAddress(const Ip6::Address &aAddress) const { bool has = false; VerifyOrExit(mMlrRegisteredMask.HasAny()); for (const Ip6::Address &address : IterateIp6Addresses(Ip6::Address::kTypeMulticastLargerThanRealmLocal)) { if (GetAddressMlrState(address) == kMlrStateRegistered && address == aAddress) { ExitNow(has = true); } } exit: return has; } MlrState Child::GetAddressMlrState(const Ip6::Address &aAddress) const { uint16_t addressIndex; OT_ASSERT(&mIp6Address[0] <= &aAddress && &aAddress < GetArrayEnd(mIp6Address)); addressIndex = static_cast(&aAddress - mIp6Address); return mMlrToRegisterMask.Get(addressIndex) ? kMlrStateToRegister : (mMlrRegisteredMask.Get(addressIndex) ? kMlrStateRegistered : kMlrStateRegistering); } void Child::SetAddressMlrState(const Ip6::Address &aAddress, MlrState aState) { uint16_t addressIndex; OT_ASSERT(&mIp6Address[0] <= &aAddress && &aAddress < GetArrayEnd(mIp6Address)); addressIndex = static_cast(&aAddress - mIp6Address); mMlrToRegisterMask.Set(addressIndex, aState == kMlrStateToRegister); mMlrRegisteredMask.Set(addressIndex, aState == kMlrStateRegistered); } #endif // OPENTHREAD_CONFIG_TMF_PROXY_MLR_ENABLE #endif // OPENTHREAD_FTD void Router::Info::SetFrom(const Router &aRouter) { Clear(); mRloc16 = aRouter.GetRloc16(); mRouterId = Mle::Mle::RouterIdFromRloc16(mRloc16); mExtAddress = aRouter.GetExtAddress(); mAllocated = true; mNextHop = aRouter.GetNextHop(); mLinkEstablished = aRouter.IsStateValid(); mPathCost = aRouter.GetCost(); mLinkQualityIn = aRouter.GetLinkInfo().GetLinkQuality(); mLinkQualityOut = aRouter.GetLinkQualityOut(); mAge = static_cast(Time::MsecToSec(TimerMilli::GetNow() - aRouter.GetLastHeard())); } void Router::Clear(void) { Instance &instance = GetInstance(); memset(reinterpret_cast(this), 0, sizeof(Router)); Init(instance); } } // namespace ot